Frank Headley Baylis has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

Abstract: The invention relates to a medical probe signal generator. More particularly, it relates to a medical probe signal generator architecture. The present invention further relates to a system including a medical probe signal generator having an automatic probe type detector for detecting an identifier and at least one instrument cable comprising the identifier.

Abstract: The invention relates to a medical probe signal generator. More particularly, it relates to a medical probe signal generator architecture. The present invention further relates to a system including a medical probe signal generator having an automatic probe type detector for detecting an identifier and at least one instrument cable comprising the identifier.

Abstract: The invention relates to a medical probe signal generator. More particularly, it relates to a medical probe signal generator architecture. The present invention further relates to a medical probe signal generator having an automatic probe type detector, a user interface and operational parameter settings automatically configured according to a type of medical probe connected to the generator.

Abstract: An intradiscal lesioning device for percutaneous treatment of a patient's intervertebral disc. An elongate introducer having a longitudinal hollow bore is surgically inserted from the patient's skin to extend through the annulus fibrosus thereby providing external surgical access to the nucleus pulposus through the introducer bore. An elongate probe slides through and flexibly conforms to the bore when longitudinally inserted through the bore of the introducer. The distal portion of the probe is capable of resiliently conforming to the bore in a longitudinally slidably confined configuration and resiliently rebounding to a deployed configuration when released within the nucleus pulposus. The distal portion houses lesioning devices for emitting energy toward the inner wall of the annulus fibrosus when the distal portion is in the deployed configuration.

Abstract: An intradiscal lesioning device for percutaneous treatment of a patient's intervertebral disc. An elongate introducer having a longitudinal hollow bore is surgically inserted from the patient's skin to extend through the annulus fibrosus thereby providing external surgical access to the nucleus pulposus through the introducer bore. An elongate probe slides through and flexibly conforms to the bore when longitudinally inserted through the bore of the introducer. The distal portion of the probe is capable of resiliently conforming to the bore in a longitudinally slidably confined configuration and resiliently rebounding to a deployed configuration when released within the nucleus pulposus. The distal portion houses lesioning devices for emitting energy toward the inner wall of the annulus fibrosus when the distal portion is in the deployed configuration.